Shahid Beheshti University of Medical Sciences | Iran
Dr. Radman Mazloomnejad is a dedicated Post-Doctoral Researcher at Shahid Beheshti University of Medical Sciences, specializing in regenerative medicine, molecular biology, and tissue engineering. With an MD and extensive laboratory experience, his work bridges fundamental biology and applied biomedical innovation. Dr. Mazloomnejad’s research focuses on developing and optimizing biomaterials, surface modification techniques, and stem cell-based therapies for enhanced tissue regeneration. His studies on decellularized scaffolds, angiogenesis, and extracellular matrix preservation have contributed to advancing therapeutic solutions for cartilage repair and vascularization. He has published 11 peer-reviewed articles in high-impact journals such as International Journal of Biological Macromolecules and Biomaterials Advances, reflecting his commitment to translational research. His expertise extends to molecular and cellular imaging, bioinformatics, and MMP inhibition strategies that improve scaffold biocompatibility. Recognized for his contributions to regenerative medicine, Dr. Mazloomnejad continues to push the boundaries of biomedical innovation through interdisciplinary collaboration and experimental design. His work exemplifies scientific excellence and dedication to developing next-generation therapies that bridge the gap between laboratory discovery and clinical application, positioning him as a promising leader in the field of regenerative and translational medicine.
Featurd Publications
Kasravi, M., Ahmadi, A., Babajani, A., Mazloomnejad, R., Hatamnejad, M. R., Shariatzadeh, S., Bahrami, S., & Niknejad, H. (2023, February 9). Immunogenicity of decellularized extracellular matrix scaffolds: A bottleneck in tissue engineering and regenerative medicine. Biomaterials Research.
Ahmadi, A., Mazloomnejad, R., Kasravi, M., Gholamine, B., Bahrami, S., Sarzaeem, M. M., & Niknejad, H. (2022, November 12). Recent advances on small molecules in osteogenic differentiation of stem cells and the underlying signaling pathways. Stem Cell Research & Therapy.
Mazloomnejad, R., Babajani, A., Kasravi, M., Ahmadi, A., Shariatzadeh, S., Bahrami, S., & Niknejad, H. (2023, February 16). Angiogenesis and re-endothelialization in decellularized scaffolds: Recent advances and current challenges in tissue engineering. Frontiers in Bioengineering and Biotechnology,
Hojabri, M., Tayebi, T., Kasravi, M., Aghdaee, A., Ahmadi, A., Mazloomnejad, R., Tarasi, R., Shaabani, A., Bahrami, S., & Niknejad, H. (2023, June 15). Wet-spinnability and crosslinked fiber properties of alginate/hydroxyethyl cellulose with varied proportion for potential use in tendon tissue engineering. International Journal of Biological Macromolecules.
Moeinabadi-Bidgoli, K., Mazloomnejad, R., Beheshti Maal, A., Asadzadeh Aghdaei, H., Kazem Arki, M., Hossein-Khannazer, N., & Vosough, M. (2023, June 3). Genetic modification and preconditioning strategies to enhance functionality of mesenchymal stromal cells: A clinical perspective. Expert Opinion on Biological Therapy.
Jalali, P., Shahmoradi, A., Samii, A., Mazloomnejad, R., Hatamnejad, M. R., Saeed, A., Namdar, A., & Salehi, Z. (2025, April 3). The role of autophagy in cancer: From molecular mechanism to therapeutic window. Frontiers in Immunology.
Kasravi, M., Yaghoobi, A., Tayebi, T., Hojabri, M., Talebi Taheri, A., Shirzad, F., Jambar Nooshin, B., Mazloomnejad, R., Ahmadi, A., Tehrani, F. A., Yazdanpanah, G., Farjoo, M. H., & Niknejad, H. (2024, January 1). MMP inhibition as a novel strategy for extracellular matrix preservation during whole liver decellularization. Biomaterials Advances.